Product Description

Specifically, the Beckhoff AM3051-0E01-0000 belongs to the well-known AM Servo Motor Series and brings exceptional features as a perfect synchronous servomotor suitable for diverse automation systems. This motor has a nominal voltage of 480 V AC and has been developed to provide output and efficiency regardless of the application it is used in. At 1.04 kW of rated power and 2500 min⁻¹ of rated speed, applications needing moderate speed and power output are the key areas of application of the AM3051-0E01-0000. A standstill torque of 4.70 Nm of the motor makes it operate optimally even when the system is not moving. This motor is stable to operate throughout dynamic conditions with rated torque of 3.98Nm, and for peak torque of 15.6Nm, the motor is capable of responding to short term spikes in demands.

This motor uses a synchronous structure, which is widely used in robotic applications due to its strict tolerance and stable performance, especially in automatic control equipment. The motor utilizes a feedback system with different types such as resolver, BiSS B, and EnDat 2 which enables the system to have constant feedback, an essential element for precision in particular motion controlling systems. These feedback systems improve on the motor’s capability to deliver high accuracy in applications, so as to maintain accurate position and velocity of the motor.

The model, AM3051-0E01-0000, has a torque constant of 1.72 Nm/A, which in simple terms means it produces predictable torque as a function of the current supplied. This characteristic of the motor makes it easier to control in many applications including simple positioner to complex automation functions. The rotor moment of inertia of 3.420 kgcm² makes acceleration and deceleration smooth and therefore helps the motor achieve stability and performance. For this reason, the motor has been specifically developed to have long-term reliability and it comes with features such as convection cooling in order to ensure that the amount of heat generated when the motor is in use is well checked. This passive cooling strategy reduces the need for extra cooling mechanisms and hence makes the motor simpler to incorporate into numerous configurations without difficulty.